conifer pollination mechanisms revisited

Conifer Pollination Mechanisms Revisited

Patrick von Aderkas

University of Victoria

Patrick von Aderkas

Alexandra Lunney

Patrick von Aderkas

Alexandra Lunney

Stefan Little

Patrick von Aderkas

Alexandra Lunney

Stefan Little

Natalie Prior

Outline 1. Introduction 2. Pollination mechanisms 3. What does this mean?

Ginkgo biloba

This is the oldest, and the most common pollination mechanism in the history of gymnosperms

Pollen is captured by

a pollination drop

Fig. 2. Mirror trees showing the parsimony based character mapping on the strict consensus of 10 trees; parsimony model for characters is unordered. Left, mapping of zoodiogamy presence and absence; fossil taxa with prepollen scored as present. Right, mapping of pollination drop absence, presence, or occurrence of ECG (extra-ovular capture and germination); fossil taxa with saccate pollen scored as present.]

Mapping the presence of a pollination drop on the phylogeny of gymnosperms using parsimony reconstruction

Outline 1. Introduction 2. Pollination mechanisms 3. Scanning Electron Micrographs 4. What does this mean?

Pollination mechanisms are divided into two types: i. Pollen capture mechanisms (PCMs)

ii. Extra-ovular capture and germination (ECG)

PCM 1 non-saccate pollen is captured by a pollination drop example Ginkgo

Scanning Electron Microscopy

Unfixed ovules were placed in a Hitachi S-3500N variable pressure scanning electron microscope with a Deben MK3 cold stage. The SEM was operated at 20 kV and 50 Pa variable pressure in back-scattered electron mode using a Robinson BSE detector

PCM 1 non-saccate pollen is captured by a pollination drop Ephedra

PCM 1 non-saccate pollen is captured by a pollination drop Ephedra

PCM 1 non-saccate pollen is captured by a pollination drop Ephedra

PCM 1 non-saccate pollen is captured by a pollination drop Taxus

PCM 1 non-saccate pollen is captured by a pollination drop Taxus

PCM 1 non-saccate pollen is captured by a pollination drop Cupressus

PCM 1 non-saccate pollen is captured by a pollination drop Chamaecyparis

PCM 1 is found in most modern gymnosperms

From the fossil record we infer that PCM 1 was found in most extinct gymnosperms: drops captured pollen, and earlier, prepollen

PCM 2 saccate pollen is captured by micropyle: a pollination drop later appears example Tsuga mertensiana

PCM 2 saccate pollen is captured by micropyle: a pollination drop later appears example Tsuga mertensiana

PCM 2 saccate pollen is captured by micropyle: a pollination drop later appears example Tsuga mertensiana

PCM 2 saccate pollen is captured by micropyle: a pollination drop later appears example Pinus nigra

from Leslie (2010)

PCM 2 is restricted to some members of the Pinaceae, e.g. Pinus, Picea, Tsuga

PCM 3 saccate pollen is not captured by the drop but by the scavenging activity of a pollination drop example Podocarpus

PCM 3 is restricted to some members of the Podocarpaceae, e.g. Podocarpus

PCM 4 non-saccate pollen is not captured by a pollination drop; however a drop later appears Pseudotsuga

PCM 4 non-saccate pollen is not captured by a pollination drop; however a drop later appears Pseudotsuga

PCM 4 non-saccate pollen is not captured by a pollination drop; however a drop later appears Larix

PCM 4 non-saccate pollen is not captured by a pollination drop; however a drop later appears Larix

PCM 4 is restricted to some members of the Pinaceae, e.g. Pseudotsuga, Larix

PCM 5 saccate pollen is trapped by a funnel-shaped extension. A drop appears later example Cedrus

Owens and Takaso (1995)

PCM 6 saccate pollen is trapped by a funnel-shaped extension. No drop appears Abies

Owens & Chandler (2004)

PCM 5 & 6 are restricted to some members of the Pinaceae, e.g. Cedrus & Abies, respectively

PCM 1, 2, 4, 5 & 6

PCM 1 &3

PCM 1 & 2*

* for fossil taxa, sacci=drop, but primary capture unknown

Pollination mechanisms are divided into two types: i. Pollen capture mechanisms (PCMs)

ii. Extra-ovular capture and germination (ECG)

ECG pollen lands outside the ovule and grows into the nucellus, which extends beyond the ovule Agathis

Owens et al. 1995

ECGs are found in some Pinaceae, and all Araucariaceae

PCM 1, 2, 4, 5 & 6

PCM 1 &3

PCM 1

ECG

ECG

Outline 1. Introduction 2. Pollination mechanisms 3. What does this mean?

Pinaceae are have the most diversity in pollination mechanisms, followed by the Podocarpaceae

PCM 1 (pollen capture by an exposed drop) is the basal type for gymnosperms both in the fossil record and in modern gymnosperms

Gnetales and possibly Cyadales show a major modification of PCM1 – the drop behaves like nectar as it provides a reward to insects

In British Columbia we have many economically important Pinaceae species, but as is clear from this diagram these are of great interest from an evolutionary point of view

Acknowledgments Figures Wikipedia (Ginkgo leaves) http://www.polleninfo.org (Ginkgo, Taxus, Cupressus, Ephedra, Cedrus ) www.paleolab.ca (pollen of Tsuga mertensiana) Leslie (2010) New Phytologist 188: 273-279 (Pinus pollen) Tomlinson et al. (1997) (Podocarpus schema) Australian Pollen and Spore Atlas (Podocarpus pollen) Owens & Takaso (1995) Cedrus ovule Owens & Chandler (2004) Abies ovule Owens et al. (1995) Agathis ovule

Money NSERC Discovery Grant supported Patrick von Aderkas and Alexandra Lunney NSERC PGS A Graduate Scholarship supported Natalie Prior NSERC Strategic Partnership supported Stefan Little

SEM Brent Gowen of UVic Biology Electron Microscopy Unit provided lots of help